[HTML][HTML] Planar microcavities: Materials and processing for light control
Microcavities are a class of optical structures providing a versatile approach to engineering
light matter interactions. In light of recent developments in materials processing …
light matter interactions. In light of recent developments in materials processing …
Brain-inspired nanophotonic spike computing: challenges and prospects
Nanophotonic spiking neural networks (SNNs) based on neuron-like excitable
subwavelength (submicrometre) devices are of key importance for realizing brain-inspired …
subwavelength (submicrometre) devices are of key importance for realizing brain-inspired …
Observation of ultra-large Rabi splitting in the plasmon-exciton polaritons at room temperature
Modifying the light–matter interactions in the plasmonic structures and the two-dimensional
(2D) materials not only advances the deeper understanding of the fundamental studies of …
(2D) materials not only advances the deeper understanding of the fundamental studies of …
Resonant tunneling diode nano-optoelectronic excitable nodes for neuromorphic spike-based information processing
In this work, we introduce an interconnected nano-optoelectronic spiking artificial neuron
emitter-receiver system capable of operating at ultrafast rates (about 100 ps/optical spike) …
emitter-receiver system capable of operating at ultrafast rates (about 100 ps/optical spike) …
[HTML][HTML] Temporal coupled-mode theory in nonlinear resonant photonics: From basic principles to contemporary systems with 2D materials, dispersion, loss, and gain
Temporal coupled-mode theory (CMT) is an acclaimed and widely used theoretical
framework for modeling the continuous-wave response and temporal dynamics of any …
framework for modeling the continuous-wave response and temporal dynamics of any …
How Do the Purcell Factor, the Q‐Factor, and the Beta Factor Affect the Laser Threshold?
As lasers get more and more miniaturized and their dimensions become comparable to the
wavelength, two interconnected phenomena take place: the fraction of spontaneous …
wavelength, two interconnected phenomena take place: the fraction of spontaneous …
[HTML][HTML] Rate equation description of quantum noise in nanolasers with few emitters
Rate equations for micro-and nanocavity lasers are formulated which take account of the
finite number of emitters, Purcell effects as well as stochastic effects of spontaneous …
finite number of emitters, Purcell effects as well as stochastic effects of spontaneous …
The onset of lasing in semiconductor nanolasers
Nanolasers based on emerging dielectric cavities with deep sub‐wavelength confinement of
light offer a large light‐matter coupling rate and near‐unity spontaneous emission factor, β β …
light offer a large light‐matter coupling rate and near‐unity spontaneous emission factor, β β …
Subwavelength-scale lasing perovskite with ultrahigh Purcell enhancement
The remarkable photophysical properties of halide perovskites have led to high-
performance lasers. The slow emission dynamics and diffraction-limited device, however …
performance lasers. The slow emission dynamics and diffraction-limited device, however …
Is terahertz emission a good probe of the spin current attenuation length?
Terahertz (THz) emission from magnetic films has recently become an important
characterization tool of spintronic properties, particularly since no patterning is required. One …
characterization tool of spintronic properties, particularly since no patterning is required. One …